--- layout: "guides" page_title: "AppRole Pull Authentication - Guides" sidebar_current: "guides-identity-authentication" description: |- Authentication is a process in Vault by which user or machine-supplied information is verified to create a token with pre-configured policy. --- # Authentication Before a client can interact with Vault, it must authenticate against an [**auth method**](/docs/auth/index.html) to acquire a token. This token has policies attached so that the behavior of the client can be governed. Since tokens are the core method for authentication within Vault, there is a **token** auth method (often referred to as **_token store_**). This is a special auth method responsible for creating and storing tokens. ### Auth Methods Auth methods perform authentication to verify the user or machine-supplied information. Some of the supported auth methods are targeted towards users while others are targeted toward machines or apps. For example, [**LDAP**](/docs/auth/ldap.html) auth method enables user authentication using an existing LDAP server while [**AppRole**](/docs/auth/approle.html) auth method is recommended for machines or apps. The [Getting Started](/intro/getting-started/authentication.html) guide walks you through how to enable the GitHub auth method for user authentication. This introductory guide focuses on generating tokens for machines or apps by enabling the [**AppRole**](/docs/auth/approle.html) auth method. ## Reference Material - [AppRole Auth Methods](/docs/auth/approle.html) - [AppRole Auth Method (API)](/api/auth/approle/index.html) - [Authenticating Applications with HashiCorp Vault AppRole](https://www.hashicorp.com/blog/authenticating-applications-with-vault-approle) ## Estimated Time to Complete 10 minutes ## Personas The end-to-end scenario described in this guide involves two personas: - **`admin`** with privileged permissions to configure an auth method - **`app`** is the consumer of secrets stored in Vault ## Challenge Think of a scenario where a DevOps team wants to configure Jenkins to read secrets from Vault so that it can inject the secrets to an app's environment variables (e.g. `MYSQL_DB_HOST`) at deployment time. Instead of hardcoding secrets in each build script as plain text, Jenkins retrieves secrets from Vault. As a user, you can authenticate with Vault using your LDAP credentials, and Vault generates a token. This token has policies granting you permission to perform the appropriate operations. How can a Jenkins server programmatically request a token so that it can read secrets from Vault? ## Solution Enable **AppRole** auth method so that the Jenkins server can obtain a Vault token with appropriate policies attached. Since each AppRole has attached policies, you can write fine-grained policies limiting which app can access which path. ## Prerequisites To perform the tasks described in this guide, you need to have a Vault environment. Refer to the [Getting Started](/intro/getting-started/install.html) guide to install Vault. Make sure that your Vault server has been [initialized and unsealed](/intro/getting-started/deploy.html). ### Policy requirements -> **NOTE:** For the purpose of this guide, you can use the **`root`** token to work with Vault. However, it is recommended that root tokens are only used for just enough initial setup or in emergencies. As a best practice, use tokens with an appropriate set of policies based on your role in the organization. To perform all tasks demonstrated in this guide, your policy must include the following permissions: ```shell # Mount the AppRole auth method path "sys/auth/approle" { capabilities = [ "create", "read", "update", "delete", "sudo" ] } # Configure the AppRole auth method path "sys/auth/approle/*" { capabilities = [ "create", "read", "update", "delete" ] } # Create and manage roles path "auth/approle/*" { capabilities = [ "create", "read", "update", "delete", "list" ] } # Write ACL policies path "sys/policy/*" { capabilities = [ "create", "read", "update", "delete", "list" ] } # Write test data path "secret/mysql/*" { capabilities = [ "create", "read", "update", "delete", "list" ] } ``` If you are not familiar with policies, complete the [policies](/guides/identity/policies.html) guide. ## Steps [AppRole](/docs/auth/approle.html) is an authentication mechanism within Vault to allow machines or apps to acquire a token to interact with Vault. It uses **Role ID** and **Secret ID** for login. The basic workflow is: ![AppRole auth method workflow](/assets/images/vault-approle-workflow.png) > For the purpose of introducing the basics of AppRole, this guide walks you > through a very simple scenario involving only two personas (admin and app). > Please refer to the [Advanced Features](#advanced-features) section for > further discussions after completing the following steps. In this guide, you are going to perform the following steps: 1. [Enable AppRole auth method](#step1) 1. [Create a role with policy attached](#step2) 1. [Get Role ID and Secret ID](#step3) 1. [Login with Role ID & Secret ID](#step4) 1. [Read secrets using the AppRole token](#step5) Step 1 through 3 need to be performed by an `admin` user. Step 4 and 5 describe the commands that an `app` runs to get a token and read secrets from Vault. ### Step 1: Enable AppRole auth method (**Persona:** admin) Like many other auth methods, AppRole must be enabled before it can be used. #### CLI command Enable `approle` auth method by executing the following command: ```shell $ vault auth enable approle ``` #### API call using cURL Enable `approle` auth method by mounting its endpoint at `/sys/auth/approle`: ```shell $ curl --header "X-Vault-Token: " \ --request POST \ --data \ /v1/sys/auth/approle ``` Where `` is your valid token, and `` holds [configuration parameters](/api/system/auth.html#enable-auth-method) of the method. **Example:** ```shell $ curl --header "X-Vault-Token: ..." \ --request POST \ --data '{"type": "approle"}' \ https://vault.rocks/v1/sys/auth/approle ``` The above example passes the **type** (`approle`) in the request payload at the `sys/auth/approle` endpoint. ### Step 2: Create a role with policy attached (**Persona:** admin) When you enabled the AppRole auth method, it gets mounted at the **`/auth/approle`** path. In this example, you are going to create a role for the **`app`** persona (`jenkins` in our scenario). The scenario in this guide requires the `app` to have the following policy (`jenkins-pol.hcl`): ```shell # Login with AppRole path "auth/approle/login" { capabilities = [ "create", "read" ] } # Read test data path "secret/mysql/*" { capabilities = [ "read" ] } ``` #### CLI command Before creating a role, create a `jenkins` policy: ```shell $ vault policy write jenkins jenkins-pol.hcl ``` The command to create a new AppRole: ```shell $ vault write auth/approle/role/ [parameters] ``` > There are a number of > [parameters](/api/auth/approle/index.html#create-new-approle) that you can set > on a role. If you want to limit the use of the generated secret ID, set > `secret_id_num_uses` or `secret_id_ttl` parameter values. Similarly, you can > specify `token_num_uses` and `token_ttl`. You may never want the app token to > expire. In such a case, specify the `period` so that the token generated by > this AppRole is a periodic token. To learn more about periodic token, refer to > the [Tokens and Leases](/guides/identity/lease.html#step4) guide. **Example:** The following example creates a role named `jenkins` with `jenkins` policy attached. (NOTE: This example creates a role operates in [**pull** mode](/docs/auth/approle.html).) ```shell $ vault write auth/approle/role/jenkins policies="jenkins" # Read the jenkins role $ vault read auth/approle/role/jenkins Key Value --- ----- bind_secret_id true bound_cidr_list period 0 policies [jenkins] secret_id_num_uses 0 secret_id_ttl 0 token_max_ttl 0 token_num_uses 0 token_ttl 0 ``` **NOTE:** To attach multiple policies, pass the policy names as a comma separated string. ```shell $ vault write auth/approle/role/jenkins policies="jenkins,anotherpolicy" ```` #### API call using cURL Before creating a role, create `jenkins` policy: ```shell $ curl --header "X-Vault-Token: ..." --request PUT --data @payload.json \ https://vault.rocks/v1/sys/policy/jenkins $ cat payload.json { "policy": "path \"auth/approle/login\" { capabilities = [ \"create\", \"read\" ] } ... }" } ``` Now, you are ready to create a role. **Example:** The following example creates a role named `jenkins` with a `jenkins` policy attached. (NOTE: This example creates a role which operates in [**pull** mode](/docs/auth/approle.html).) ```shell $ curl --header "X-Vault-Token: ..." --request POST \ --data '{"policies":"jenkins"}' \ https://vault.rocks/v1/auth/approle/role/jenkins ``` > There are a number of > [parameters](/api/auth/approle/index.html#create-new-approle) that you can set > on a role. If you want to limit the use of the generated secret ID, set > `secret_id_num_uses` or `secret_id_ttl` parameter values. Similarly, you can > specify `token_num_uses` and `token_ttl`. You may never want the app token to > expire. In such a case, specify the `period` so that the token generated by > this AppRole is a periodic token. To learn more about periodic tokens, refer to > the [Tokens and Leases](/guides/identity/lease.html#step4) guide. **NOTE:** To attach multiple policies, pass the policy names as a comma separated string. ```shell $ curl --header "X-Vault-Token:..." --request POST \ --data '{"policies":"jenkins,anotherpolicy"}' \ https://vault.rocks/v1/auth/approle/role/jenkins ```` To read the jenkins role you just created: ```shell $ curl --header "X-Vault-Token: ..." --request GET \ https://vault.rocks/v1/auth/approle/role/jenkins | jq { "request_id": "b18054ad-1ab5-8d83-eeed-193d97026ee7", "lease_id": "", "renewable": false, "lease_duration": 0, "data": { "bind_secret_id": true, "bound_cidr_list": "", "period": 0, "policies": [ "jenkins" ], "secret_id_num_uses": 0, "secret_id_ttl": 0, "token_max_ttl": 0, "token_num_uses": 0, "token_ttl": 0 }, "wrap_info": null, "warnings": null, "auth": null } ``` ### Step 3: Get Role ID and Secret ID (**Persona:** admin) **Role ID** and **Secret ID** are like a username and password that a machine or app uses to authenticate. Since the example created a `jenkins` role which operates in pull mode, Vault will generate the Secret ID. You can set properties such as usage-limit, TTLs, and expirations on the secret IDs to control its lifecycle. #### CLI command Now, you need to fetch the Role ID and Secret ID of a role. To read the Role ID: ```shell $ vault read auth/approle/role//role-id ``` To generate a new Secret ID: ```shell $ vault write -f auth/approle/role//secret-id ``` NOTE: The `-f` flag forces the `write` operation to continue without any data values specified. Alternatively, you can set [parameters](/api/auth/approle/index.html#generate-new-secret-id) such as `cidr_list`. **Example:** ```shell $ vault read auth/approle/role/jenkins/role-id Key Value --- ----- role_id 675a50e7-cfe0-be76-e35f-49ec009731ea $ vault write -f auth/approle/role/jenkins/secret-id Key Value --- ----- secret_id ed0a642f-2acf-c2da-232f-1b21300d5f29 secret_id_accessor a240a31f-270a-4765-64bd-94ba1f65703c ``` If you specified `secret_id_ttl`, `secret_id_num_uses`, or `bound_cidr_list` on the role in [Step 2](#step2), the generated secret ID carries out the conditions. #### API call using cURL To read the Role ID: ```shell $ curl --header "X-Vault-Token:..." \ --request GET \ /v1/auth/approle/role//role-id ``` To generate a new Secret ID: ```shell $ curl --header "X-Vault-Token:..." \ --request POST \ --data /v1/auth/approle/role//secret-id ``` You can pass [parameters](/api/auth/approle/index.html#generate-new-secret-id) in the request payload, or invoke the API with an empty payload. **Example:** ```shell $ curl --header "X-Vault-Token:..." --request GET \ https://vault.rocks/v1/auth/approle/role/jenkins/role-id | jq $ curl --header "X-Vault-Token:..." --request POST \ https://vault.rocks/v1/auth/approle/role/jenkins/secret-id | jq ``` If you specified `secret_id_ttl`, `secret_id_num_uses`, or `bound_cidr_list` on the role in [Step 2](#step2), the generated secret ID carries out the conditions. ### Step 4: Login with Role ID & Secret ID (**Persona:** app) The client (in this case, Jenkins) uses the role ID and secret ID passed by the admin to authenticate with Vault. If Jenkins did not receive the role ID and/or secret ID, the admin needs to investigate. -> Refer to the [Advanced Features](#advanced-features) section for further discussion on distributing the role ID and secret ID to the client app securely. #### CLI command To login, use the `auth/approle/login` endpoint by passing the role ID and secret ID. **Example:** ```shell $ vault write auth/approle/login role_id="675a50e7-cfe0-be76-e35f-49ec009731ea" \ secret_id="ed0a642f-2acf-c2da-232f-1b21300d5f29" Key Value --- ----- token eeaf890e-4b0f-a687-4190-c75b1d6d70bc token_accessor fcee5d4e-7281-8bb0-2901-e743c52e0502 token_duration 768h0m0s token_renewable true token_policies [jenkins] token_meta_role_name "jenkins" ``` Now you have a **client token** with `default` and `jenkins` policies attached. #### API call using cURL To login, use the `auth/approle/login` endpoint by passing the role ID and secret ID in the request payload. **Example:** ```plaintext $ cat payload.json { "role_id": "675a50e7-cfe0-be76-e35f-49ec009731ea", "secret_id": "ed0a642f-2acf-c2da-232f-1b21300d5f29" } $ curl --request POST --data @payload.json https://vault.rocks/v1/auth/approle/login | jq { "request_id": "fccae32b-1e6a-9a9c-7666-f5cb07805c1e", "lease_id": "", "renewable": false, "lease_duration": 0, "data": null, "wrap_info": null, "warnings": null, "auth": { "client_token": "3e7dd0ac-8b3e-8f88-bb37-a2890455ca6e", "accessor": "375c077e-bf02-a09b-c864-63d7f967e86b", "policies": [ "default", "jenkins" ], "metadata": { "role_name": "jenkins" }, "lease_duration": 2764800, "renewable": true, "entity_id": "54e0b765-6daf-0ff5-70b9-32c0d491f473" } } ``` Now you have a **client token** with `default` and `jenkins` policies attached. ### Step 5: Read secrets using the AppRole token (**Persona:** app) Once receiving a token from Vault, the client can make future requests using this token. #### CLI command **Example:** You can pass the `client_token` returned in [Step 4](#step4) as a part of the CLI command. ```shell $ VAULT_TOKEN=3e7dd0ac-8b3e-8f88-bb37-a2890455ca6e vault read secret/mysql/webapp No value found at secret/mysql/webapp ``` Alternatively, you can first authenticate with Vault using the `client_token`. ```shell $ vault login 3e7dd0ac-8b3e-8f88-bb37-a2890455ca6e Successfully authenticated! You are now logged in. token: 3e7dd0ac-8b3e-8f88-bb37-a2890455ca6e token_duration: 2762013 token_policies: [default jenkins] $ vault read secret/mysql/webapp No value found at secret/mysql/webapp ``` Since there is no value at `secret/mysql/webapp`, it returns a "no value found" message. **Optional:** Using the `admin` user's token, you can store some secrets in the `secret/mysql/webapp` path. ```shell $ vault write secret/dev/config/mongodb @mysqldb.txt $ cat mysqldb.txt { "url": "foo.example.com:35533", "db_name": "users", "username": "admin", "password": "pa$$w0rd" } ``` Now, try to read secrets from `secret/mysql/webapp` using the `client_token` again. This time, it should return the values you just created. #### API call using cURL You can now pass the `client_token` returned in [Step 4](#step4) in the **`X-Vault-Token`** header. **Example:** ```plaintext $ curl --header "X-Vault-Token: 3e7dd0ac-8b3e-8f88-bb37-a2890455ca6e" \ --request GET \ https://vault.rocks/v1/secret/mysql/webapp | jq { "errors": [] } ``` Since there is no value at `secret/mysql/webapp`, it returns an empty array. **Optional:** Using the **`admin`** user's token, create some secrets in the `secret/mysql/webapp` path. ```shell $ curl --header "X-Vault-Token: ..." --request POST --data @mysqldb.txt \ $ cat mysqldb.text { "url": "foo.example.com:35533", "db_name": "users", "username": "admin", "password": "p@ssw0rd" } ``` Now, try to read secrets from `secret/mysql/webapp` using the `client_token` again. This time, it should return the values you just created. ## Advanced Features The Role ID is equivalent to a username, and Secret ID is the corresponding password. The app needs both to log in with Vault. Naturally, the next question becomes how to deliver those values to the expected client. A common solution involves **three personas** instead of two: `admin`, `app`, and `trusted entity`. The `trusted entity` delivers the Role ID and Secret ID to the client by separate means. For example, Terraform as a trusted entity can deliver the Role ID onto the virtual machine. When the app runs on the virtual machine, the Role ID already exists on the virtual machine. ![AppRole auth method workflow](/assets/images/vault-approle-workflow2.png) Secret ID is like a password. To keep the Secret ID confidential, use [**response wrapping**](/docs/concepts/response-wrapping.html) so that only the expected client can unwrap the Secret ID. In [Step 3](#step3), you executed the following command to retrieve the Secret ID: ```shell $ vault write -f auth/approle/role/jenkins/secret-id ``` Instead, use response wrapping by passing the **`-wrap-ttl`** parameter: ```shell $ vault write -wrap-ttl=60s -f auth/approle/role/jenkins/secret-id Key Value --- ----- wrapping_token: 9bbe23b7-5f8c-2aec-83dc-e97e94a2e632 wrapping_accessor: cb5bdc8f-0cdb-35ff-0e68-9de57a79c3bf wrapping_token_ttl: 1m0s wrapping_token_creation_time: 2018-01-08 21:29:38.826611 -0800 PST wrapping_token_creation_path: auth/approle/role/jenkins/secret-id ``` Send this `wrapping_token` to the client so that the response can be unwrapped and obtain the Secret ID. ```shell $ VAULT_TOKEN=9bbe23b7-5f8c-2aec-83dc-e97e94a2e632 vault unwrap Key Value --- ----- secret_id 575f23e4-01ad-25f7-2661-9c9bdbb1cf81 secret_id_accessor 7d8a40b7-a6fd-a634-579b-b7d673ff86fb ``` NOTE: To retrieve the Secret ID alone, you can use `jq` as follows: ```shell $ VAULT_TOKEN=2577044d-cf86-a065-e28f-e2a14ea6eaf7 vault unwrap -format=json | jq -r ".data.secret_id" b07d7a47-1d0d-741d-20b4-ae0de7c6d964 ``` ## Next steps Watch the video recording of the [Delivering Secret Zero: Vault AppRole with Terraform and Chef](Docs.google.com/document/d/1CCbAQ-ZEeSpxQqvo40hM0Y5oe3tBCxM1qYrk7_Wyvww/edit?ts=5a865277#heading=h.i52qa2wbjcsk) webinar which talks about the usage of AppRole with Terraform and Chef as its trusted entities. To learn more about response wrapping, go to the [Cubbyhole Response Wrapping](/guides/secret-mgmt/cubbyhole.html) guide.